4단계 BK21 사업성과

4단계 BK21 사업성과

[김종학 교수 연구실] Use of non-selective, high-molecular-weight poly(ethylene oxide) membrane for CO2 separation

  • 날짜 2021.03.19
  • 조회수 35

ABSTRACT: Although ethylene oxide units are often incorporated into polymeric membranes for CO2 separations, high-molecular-weight poly(ethylene oxide) (high-Mw PEO) cannot be used effectively due to its inferior separation performance, despite its good solubility in mild solvents (e.g. water and alcohols) and commercial availability at low cost. A high-performance, defect-free membrane for CO2 separations based on high-Mw PEO was prepared by incorporating the crosslinkable poly(glycidyl methacrylate-g-polypropylene glycol)-co-poly(oxyethylene methacrylate) (PGP-POEM) comb copolymer. The CO2/N2 and CO2/CH4 selectivity of the neat high-Mw PEO membrane was as low as 0.8 and 0.6, respectively, which increased drastically with increasing comb copolymer content, and the thermal and mechanical properties were also improved. The three-dimensionally interweaved network of the comb copolymer occurred within the PEO matrix, which had a considerable effect on the crystalline structure of the membranes. The crystalline morphology of the membranes and the distribution of comb copolymer within the PEO matrix were comprehensively examined according to the comb copolymer content. The comb copolymer effectively suppressed the formation of non-selective defects by filling the interlamellar and interfibrillar regions of the PEO crystallites. The best separation performance was achieved with a comb copolymer loading of 30 wt%, showing a CO2 permeability of 120.9 barrer with CO2/N2 and CO2/CH4 selectivity of 44.9 and 14.5, respectively. The tensile strength and elongation at break reached 7.5 MPa and 1490%, respectively. This work presents an avenue for utilizing a low-cost, commercially-available, high-Mw PEO in gas separation applications, providing insight into the crystalline structure and morphology of these membranes.

 

논문정보: Journal of Membrane Science, 605, 118092, 2020
Published: 12 June 2020
DOI: 10.1016/j.memsci.2020.118092


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